“周期点”的版本间的差异

来自集智百科 - 复杂系统|人工智能|复杂科学|复杂网络|自组织
跳到导航 跳到搜索
第68行: 第68行:
 
参数<math>r</math>随着取值的不同,呈现周期性。对于介于0到1之间的<math>r</math>,0是唯一的周期点,周期为1(给出了吸引所有轨道的序列0,0,0,... )。对于介于1到3之间的<math>r</math>,值0仍然是周期性的,但不是吸引点,而该值是周期1的吸引周期点。当<math>r</math>大于3但小于1+时,存在一对周期2的点,它们共同构成一个吸引序列,非吸引周期1点为0。当参数<math>r</math>的值上升到4时,会出现周期为正的一组周期点;对于<math>r</math>的某些值,这些重复序列中的一个被吸引,而对于其他值,则没有一个被吸引(几乎所有的轨道都是混乱的)。
 
参数<math>r</math>随着取值的不同,呈现周期性。对于介于0到1之间的<math>r</math>,0是唯一的周期点,周期为1(给出了吸引所有轨道的序列0,0,0,... )。对于介于1到3之间的<math>r</math>,值0仍然是周期性的,但不是吸引点,而该值是周期1的吸引周期点。当<math>r</math>大于3但小于1+时,存在一对周期2的点,它们共同构成一个吸引序列,非吸引周期1点为0。当参数<math>r</math>的值上升到4时,会出现周期为正的一组周期点;对于<math>r</math>的某些值,这些重复序列中的一个被吸引,而对于其他值,则没有一个被吸引(几乎所有的轨道都是混乱的)。
  
== Dynamical system ==
+
==[[动力系统]]==
  
 
Given a [[real global dynamical system]] ('''R''', ''X'', Φ) with ''X'' the [[Phase space (dynamical system)|phase space]] and Φ the [[evolution function]],
 
Given a [[real global dynamical system]] ('''R''', ''X'', Φ) with ''X'' the [[Phase space (dynamical system)|phase space]] and Φ the [[evolution function]],
  
给定一个实整体动力系统(R,X,Φ) ,其中X为相空间,Φ为演化函数,
+
给定一个连续时间的动力系统<math>(R,X,Φ) </math>,其中<math>X</math>为相空间,<math>Φ</math>为状态转移函数,
  
  
第79行: 第79行:
 
a point ''x'' in ''X'' is called ''periodic'' with ''period'' ''t'' if there exists a ''t'' >&thinsp;0 so that
 
a point ''x'' in ''X'' is called ''periodic'' with ''period'' ''t'' if there exists a ''t'' >&thinsp;0 so that
  
如果存在 t > & thinsp; 0,则X中的点x称为周期为t的周期。因此
+
如果存在 <math>t >=0</math>,则<math>X</math>中的点<math>x</math>称为周期为<math>t</math>的周期。因此
  
 
<math>\Phi(t, x) = x\,</math>
 
<math>\Phi(t, x) = x\,</math>
第86行: 第86行:
 
The smallest positive ''t'' with this property is called ''prime period'' of the point ''x''.
 
The smallest positive ''t'' with this property is called ''prime period'' of the point ''x''.
  
具有此性质的最小正t称为点x的素数周期。
+
具有此性质的最小正<math>t</math>称为点<math>x</math>的素数周期。
  
  
  
=== Properties ===
+
=== 性质 ===
  
 
* Given a periodic point ''x'' with period ''p'', then <math>\Phi(t,x) = \Phi(t+p,x)</math> for all ''t'' in '''R'''
 
* Given a periodic point ''x'' with period ''p'', then <math>\Phi(t,x) = \Phi(t+p,x)</math> for all ''t'' in '''R'''
  
* 给定一个周期为“p”的周期点“x”,则对于“R”中所有“t”的Phi(t,x) = \Phi(t+p,x)
+
* 给定一个周期为“p”的周期点“x”,则对于<math>R</math>中所有<math>x</math>的<math>\Phi(t,x) = \Phi(t+p,x)</math>
  
 
* Given a periodic point ''x'' then all points on the [[orbit (dynamics)|orbit]] <math>\gamma_x</math> through ''x'' are periodic with the same prime period.
 
* Given a periodic point ''x'' then all points on the [[orbit (dynamics)|orbit]] <math>\gamma_x</math> through ''x'' are periodic with the same prime period.
  
 
* 给定周期点“x”,则在轨道 <math>\gamma_x</math>上的所有点都具有相同的素数周期
 
* 给定周期点“x”,则在轨道 <math>\gamma_x</math>上的所有点都具有相同的素数周期
 
  
 
==See also==
 
==See also==

2021年1月22日 (五) 17:54的版本

此词条暂由彩云小译翻译,翻译字数共488,未经人工整理和审校,带来阅读不便,请见谅。 此词条由舒寒初步翻译。

在数学中,特别是在迭代函数和动力系统的研究领域中,函数的周期点是系统在一定次数的函数迭代或一定时间后返回的点。这里的迭代次数叫做周期。周期为1的周期点被称为不动点。


迭代函数

给定一个从集合[math]\displaystyle{ X }[/math]到自身的映射[math]\displaystyle{ f }[/math],

[math]\displaystyle{ f: X \to X, }[/math]

a point x in X is called periodic point if there exists an n so that

[math]\displaystyle{ X }[/math]中的点[math]\displaystyle{ x }[/math]称为周期点,如果存在一个[math]\displaystyle{ n }[/math]使

[math]\displaystyle{ \ f_n(x) = x }[/math]

where [math]\displaystyle{ f_n }[/math] is the nth iterate of f. The smallest positive integer n satisfying the above is called the prime period or least period of the point x. If every point in X is a periodic point with the same period n, then f is called periodic with period n (this is not to be confused with the notion of a periodic function).

其中[math]\displaystyle{ f_n }[/math][math]\displaystyle{ f }[/math]的第[math]\displaystyle{ n }[/math]次迭代。满足上述条件的最小正整数[math]\displaystyle{ n }[/math]称为点[math]\displaystyle{ x }[/math]的素数周期prime period或最小周期。如果[math]\displaystyle{ X }[/math]中的每一个点都是周期为[math]\displaystyle{ n }[/math]的周期点,那么[math]\displaystyle{ f }[/math]有周期性,周期为[math]\displaystyle{ n }[/math](这不能和周期函数的概念混淆)。


If there exist distinct n and m such that [math]\displaystyle{ f_n(x) = f_m(x) }[/math]

如果存在不同的[math]\displaystyle{ n }[/math][math]\displaystyle{ m }[/math]使:[math]\displaystyle{ f_n(x) = f_m(x) }[/math]

then x is called a preperiodic point. All periodic points are preperiodic.

那么[math]\displaystyle{ x }[/math]称为前周期点。所有周期点都是前周期点。

If f is a diffeomorphism of a differentiable manifold, so that the derivative [math]\displaystyle{ f_n^\prime }[/math] is defined, then one says that a periodic point is hyperbolic if

[math]\displaystyle{ |f_n^\prime|\ne 1, }[/math]

如果[math]\displaystyle{ x }[/math]是微分流形的微分同胚,则定义了导数[math]\displaystyle{ f_n^\prime }[/math],如果:[math]\displaystyle{ |f_n^\prime|\ne 1, }[/math],那么[math]\displaystyle{ f }[/math]是双曲周期点,

that it is attractive if :[math]\displaystyle{ |f_n^\prime|\lt 1, }[/math]

如果:[math]\displaystyle{ |f_n^\prime|\lt 1, }[/math],则称周期点[math]\displaystyle{ f }[/math]为吸引子,

and it is repelling if:[math]\displaystyle{ |f_n^\prime|\gt 1. }[/math]

如果:[math]\displaystyle{ |f_n^\prime|\gt 1. }[/math],则称周期点[math]\displaystyle{ f }[/math]为排斥子。

If the dimension of the stable manifold of a periodic point or fixed point is zero, the point is called a source; if the dimension of its unstable manifold is zero, it is called a sink; and if both the stable and unstable manifold have nonzero dimension, it is called a saddle or saddle point.

如果周期点或不动点的稳定流形的维数为零,则称其为源点;如果不稳定流形的维数为零,则称其为汇点;如果稳定流形和不稳定流形都有非零维数,则称其为鞍点。


示例

A period-one point is called a fixed point.

周期为1的点也叫做不动点


逻辑斯谛克映射函数表达式:


[math]\displaystyle{ x_{t+1}=rx_t(1-x_t), \qquad 0 \leq x_t \leq 1, \qquad 0 \leq r \leq 4 }[/math]

exhibits periodicity for various values of the parameter r. For r between 0 and 1, 0 is the sole periodic point, with period 1 (giving the sequence 0, 0, 0, ..., which attracts all orbits). For r between 1 and 3, the value 0 is still periodic but is not attracting, while the value (r − 1) / r is an attracting periodic point of period 1. With r greater than 3 but less than 1 + 模板:Radic, there are a pair of period-2 points which together form an attracting sequence, as well as the non-attracting period-1 points 0 and (r − 1) / r. As the value of parameter r rises toward 4, there arise groups of periodic points with any positive integer for the period; for some values of r one of these repeating sequences is attracting while for others none of them are (with almost all orbits being chaotic).

参数[math]\displaystyle{ r }[/math]随着取值的不同,呈现周期性。对于介于0到1之间的[math]\displaystyle{ r }[/math],0是唯一的周期点,周期为1(给出了吸引所有轨道的序列0,0,0,... )。对于介于1到3之间的[math]\displaystyle{ r }[/math],值0仍然是周期性的,但不是吸引点,而该值是周期1的吸引周期点。当[math]\displaystyle{ r }[/math]大于3但小于1+时,存在一对周期2的点,它们共同构成一个吸引序列,非吸引周期1点为0。当参数[math]\displaystyle{ r }[/math]的值上升到4时,会出现周期为正的一组周期点;对于[math]\displaystyle{ r }[/math]的某些值,这些重复序列中的一个被吸引,而对于其他值,则没有一个被吸引(几乎所有的轨道都是混乱的)。

动力系统

Given a real global dynamical system (R, X, Φ) with X the phase space and Φ the evolution function,

给定一个连续时间的动力系统[math]\displaystyle{ (R,X,Φ) }[/math],其中[math]\displaystyle{ X }[/math]为相空间,[math]\displaystyle{ Φ }[/math]为状态转移函数,


[math]\displaystyle{ \Phi: \mathbb{R} \times X \to X }[/math]

a point x in X is called periodic with period t if there exists a t > 0 so that

如果存在 [math]\displaystyle{ t \gt =0 }[/math],则[math]\displaystyle{ X }[/math]中的点[math]\displaystyle{ x }[/math]称为周期为[math]\displaystyle{ t }[/math]的周期。因此

[math]\displaystyle{ \Phi(t, x) = x\, }[/math]


The smallest positive t with this property is called prime period of the point x.

具有此性质的最小正[math]\displaystyle{ t }[/math]称为点[math]\displaystyle{ x }[/math]的素数周期。


性质

  • Given a periodic point x with period p, then [math]\displaystyle{ \Phi(t,x) = \Phi(t+p,x) }[/math] for all t in R
  • 给定一个周期为“p”的周期点“x”,则对于[math]\displaystyle{ R }[/math]中所有[math]\displaystyle{ x }[/math][math]\displaystyle{ \Phi(t,x) = \Phi(t+p,x) }[/math]
  • Given a periodic point x then all points on the orbit [math]\displaystyle{ \gamma_x }[/math] through x are periodic with the same prime period.
  • 给定周期点“x”,则在轨道 [math]\displaystyle{ \gamma_x }[/math]上的所有点都具有相同的素数周期

See also

模板:PlanetMath attribution

Category:Limit sets

类别: 极限集


This page was moved from wikipedia:en:Periodic point. Its edit history can be viewed at 周期点/edithistory